1. 毕业设计（论文）的内容和要求

论文从三个方面展开。

一，不同钒钛催化剂负载量对脱硝效率的影响，二，反应温度和表面速度对样品脱硝效率。

最后，对样品进行过滤阻力的测试。

2. 参考文献

[1]马风哪,程伟琴.国内火电厂氮氧化物排放现状及控制技术探讨[J].广州化 工,2011,39(15):57-59. [2]郭伟平.火力电厂锅炉脱硫脱硝及烟气除尘的技术分析[J].能源技术与管理，2018,43（05）；148-150 [3] Yang M, Liu Q, Xue Q, Gao Y. Preparation and characterization of V2O5-WO3/TiO2 catalyst by chemical vapor deposition[J].Journal of Functional Materials,(2010)41:683-686. [4] Choung J W, Nam I S, Ham S W. 2006. Effect of promoters including tungsten and barium on the thermal stability of V2O5/sulfate TiO2 catalyst for NO reduction by NH3[J]. CATALYSIS TODAY, 111(3-4): 242-247. [5] Duan J, Shi W, Xia Q, Li Z, Wu F. Characterization and regeneration of deactivated commercial SCR catalyst[J]. Journal of Functional Materials,2012. 43: 2191-2195. [6]郭艳军,陈昊宇,刘超.能源相关的氮氧化物排放现状与控制研究[J].建筑热能通风空调,2018(09):48-51. [7]张秋兰. 国外雾霾治理的经验及其对我国的启示[J]. 潘阳湖刊,,2014(3):25-26 [8]Pio F. Present status and perspectives in de-NOX SCR catalysis [J]. Applied Catalysis A: General, 2001, 222 (1, 2): 221-236 [9]Muzio L J, Quartucy G C, Cichanowicz J E, et al. Overview and status of post-combustion NOX control: SNCR, SCR and hybrid technologies [J]. International Journal of Environment and Pollution, 2002, 17(2): 24-30 [10] Hunt T, Muzio L, Smit h R, et al. Integrating low-NOX burners, over-fire air, and selective non-catalytic reduction on a utility coal-fired boiler [J]. Environmental Progress, 1995, 14 (2): 115-120 [11] Jin Y M, Veiga M C, Kennes C, et al. Bioprocesses for the removal of nitrogen oxides from polluted air [J]. Journal of Chemical Technology and Biotechnology,2005, 80 (5): 483-494. [12] 王斌, 唐茂平, 马爱平. 后石电厂超临界压力机组脱NOX工艺特点[J]. 中国电力, 2004, 37 (3): 88-90. [13] Muzio L J, Quartucy G C, Cichanowicz J E, et al. Overview and status of post-combustion NOX control: SNCR, SCR and hybrid technologies [J]. International Journal of Environment and Pollution, 2002, 17(2): 24-30 [14] Wendt J O L, Linak W P, Groff P W, et al. Hybrid SNCR-SCR technologies for NOX control: Modeling and experiment[J]. AICHE Journal, 2001, 47 (11): 2603-2617 [15] Han X H, Wei X L, Schnell U, et al. Detailed modeling of hybrid reburn/ SNCR processes for NOX reduction in coal-fired furnaces [J]. Combustion and Flame, 2003,132 (3): 374-386 [16] Hunt T, Muzio L, Smit h R, et al. Integrating low-NOX burners, over-fire air, and selective non-catalytic reduction on a utility coal-fired boiler [J]. Environmental Progress, 1995, 14 (2): 115-120 [17] 李永谦. 电子束净化烟气机理探讨[J]. 环境污染治理技术与设备, 2002, 3(8):67-70 [18] Chmielewski A, Licki J, Pawelec A, et al. Operational experience of the industrial plant for electron beam flue gas treatment [J]. Radiation Physics and Chemistry, 2004, 71(1): 439-442

3. 毕业设计（论文）进程安排

起讫日期 设计（论文）各阶段工作内容 2018.12.18-2019.1.5 了解课题背景，查阅相关文献 2019.1.6-2019.1.10 文献综述，翻译英文文献 2019.1.11-2019.1.24 完成开题，确定实验方案 2019.3.18-2019.3.20 实验准备 2019.3.21-2019.3.29 除尘陶瓷膜的制备 2019.3.30-2019.4.20 催化剂的负载、阻力测试 2019.4.21-2019.5.14 制备不同比例的材料 2019.5.15-2019.5.22 材料性能测试 2019.5.23-2019.5.28 不同因素对材料性能的影响测试 2019.5.29-2019.6.7 实验数据分析，撰写毕业论文 2019.6.8-2019.6.14 论文答辩